Distinctive thermoresponsive behavior of smart polymers solvated in glycerol from Molecular Dynamics

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Thermoresponsive polymers have been utilized in a broad range of medical and industrial applications as smart materials, including controlled drug delivery, and water treatment and desalination. While the behavior of such polymers has been modeled in aqueous solutions, study of their behavior in viscous solvents is very limited. In this research, the thermoresponsive behavior of PNIPAM, poly(N-isopropylacrylamide)) and poly(N,N-diethylacrylamide) (PDEA) has been thoroughly evaluated using Molecular Dynamics techniques and the OPLS/AA force field. Structural and energetic properties including radius of gyration, solvent accessible surface area, and oligomer-solvent interaction energies were characterized. Simulation results indicate that these polymers sustained a reversible coil-to-globule transition in glycerol, with a significant increase in lower critical solution temperature (LCST) when compared to the collapse transition in aqueous solutions. These findings yield crucial insight into industrial applications where polymer phase behavior at higher LCST is advantageous. *Acknowledgment: Partial support from the Commonwealth of Virginia, grant 4VA, Scalable Molecular Dynamics

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Journal: TechConnect Briefs
Volume: TechConnect Briefs 2022
Published: June 13, 2022
Pages: 191 - 194
Industry sector: Advanced Materials & Manufacturing
Topics: Informatics, Modeling & Simulation, Modeling & Simulation of Microsystems
ISBN: 979-8-218-00238-1